CN210927863U - Router shell with heat dissipation window - Google Patents

Abstract

The utility model discloses a take router shell of heat dissipation window, concretely relates to router spare part field, it includes a shell body mechanism, shell body mechanism screw connection has No. two shell body mechanisms, be connected with a heat dissipation window mechanism through No. two tie bolts on a shell body mechanism's the intermediate panel, a shell body mechanism's side is connected with No. two heat dissipation window mechanisms through No. three tie bolts, the utility model discloses novel structure, convenient to use, the radiating efficiency is high, is a novel and practical take router shell of heat dissipation window.

Description

Router shell with heat dissipation window

Technical Field

The invention relates to the field of router parts, in particular to a router shell with a heat dissipation window.

Background

The router is a hardware device for connecting two or more networks, plays a role of a gateway between the networks, is a special intelligent network device for reading an address in each data packet and then determining how to transmit the data packet, is very easy to generate heat because more electric appliance elements are arranged in the router during operation and use, generates more heat when the larger router is used, most of electronic elements in the router are fragile, and is very easy to burn out, and a heat dissipation structure on the shell can provide a certain cooling and heat dissipation function for the router.

Most of existing router shells are very simple in structure, only have basic heat dissipation hole arrays, are very poor in heat dissipation efficiency in use, dust and the like easily enter the net holes, heat dissipation performance is further weakened, and great inconvenience exists, so that the router shell with the heat dissipation window is provided to solve the problems.

SUMMERY OF THE UTILITY MODEL

The invention aims to solve the defects in the prior art and provides a router shell with a heat dissipation window.

In order to achieve the purpose, the invention adopts the following technical scheme:

the router shell with the heat dissipation window comprises a first shell mechanism, wherein the first shell mechanism is in screw connection with a second shell mechanism, a first heat dissipation window mechanism is connected to a middle panel of the first shell mechanism through a second connecting bolt, the side surface of the first shell mechanism is connected with the second heat dissipation window mechanism through a third connecting bolt, the first shell mechanism comprises a bottom panel, mounting columns, a first insertion groove, a connecting column, a heat dissipation hole array, a dustproof inner net, a first heat dissipation window mounting groove, a first side panel, a second insertion groove, a second heat dissipation window mounting groove, a gasket embedding groove and a rubber gasket, four mounting columns are arranged at four corners of the inner side of the bottom panel, the mounting columns are vertically arranged at the four corners of the bottom panel, the first insertion groove is vertically arranged on one side edge of the inner side of the bottom panel, and the bottom panel between every two adjacent connecting columns is provided with the heat dissipation hole array, the bottom surface board inboard panel that the louvre array corresponds is screwed connection has dustproof intranet, department is equipped with radiating window mounting groove No. one in the middle of the bottom surface board, all be equipped with side board No. one perpendicularly on the relative both sides edge of bottom surface board, all be equipped with No. two inserting grooves on the inboard both ends of side board No. one, mutually perpendicular between No. two inserting grooves and the bottom surface board, the inboard of the bottom surface board that radiating window mounting groove corresponds is equipped with packing ring gomphosis groove, the embedding of packing ring gomphosis inslot is connected with the rubber packing ring.

Preferably, No. two shell body mechanism include top panel, No. two side panels, a spliced pole, interface window and No. two spliced poles, all be equipped with No. two side panels on the relative both sides of top panel perpendicularly, be equipped with a spliced pole on the both ends of No. two side panels, one of them be equipped with a plurality of interface windows on No. two side panels, another be equipped with No. two spliced poles on the inboard panel of No. two side panels.

Preferably, the first heat dissipation window mechanism comprises a first frame, a mesh groove, a first dustproof outer mesh, a first heat dissipation sheet, a heat dissipation sheet mounting seat, a heat conduction glue caulking groove, heat conduction glue, a first connecting bolt, a connecting seat and a backing ring, two net grooves are arranged on the first frame, a first dustproof outer net is fixedly bonded in the net grooves, a first heat radiating fin is arranged on one side, away from the mesh groove, of the first frame corresponding to the first dustproof outer mesh, the first heat radiating fin is fixedly welded on a sub-heat radiating fin mounting seat, a heat-conducting rubber caulking groove is arranged on one side of the heat radiating fin mounting seat far away from the first heat radiating fin, heat-conducting rubber is embedded in the heat-conducting rubber caulking groove, the four corners of fin mount pad all are connected with the connecting seat through a connecting bolt, the connecting seat sets up perpendicularly respectively on the corresponding side board of a frame of four corners in the wire netting groove, four corners of a frame all are equipped with the backing ring.

Preferably, No. two radiator window mechanisms include No. two frames, window, No. two dustproof outer nets, connection shell fragment, side frame plate, fin clamp and No. two fin, be equipped with the window on No. two frames, No. two frame one side that the window corresponds is equipped with No. two dustproof outer nets, No. two relative both sides limit of dustproof outer net is fixed on the one side board of No. two frames through connecting the shell fragment, No. two side frame plates, two are equipped with perpendicularly on the side that No. two frames kept away from connection shell fragment on the side frame plate welds respectively on the both ends that the fin pressed from both sides, the gomphosis welding has a plurality of No. two fin in the fin clamp.

Preferably, the second insertion rod is inserted into the first insertion groove, the first insertion rod is inserted into the second insertion groove, and the top panel is fixed on the connecting column through screws.

Preferably, the first frame is arranged in the first heat dissipation window mounting groove, and the four backing rings are respectively fixed on a side panel of the bottom panel corresponding to the first heat dissipation window mounting groove through a second connecting bolt.

Preferably, four corners of the second frame are fixed on a first side panel corresponding to the second heat dissipation window mounting groove through a third connecting bolt, and the second heat dissipation sheet is arranged on the inner side of the first side panel.

Preferably, the first heat dissipation fin is arranged on the inner side of the bottom panel.

Preferably, a side edge of the bottom panel where the first side panel is located is perpendicular to a side edge of the bottom panel where the first inserting groove is located.

The invention has the beneficial effects that:

1. the heat-conducting glue contained in the first heat-radiating window mechanism enables the contact between the first heat-radiating window mechanism and the router circuit board to be flexible contact, the wiring pins of the circuit board cannot be damaged, meanwhile, heat on the circuit board can be conducted to the first heat-radiating fin through the heat-radiating fin mounting seat, and the first heat-radiating window mechanism enables the router circuit board to be directly subjected to heat conduction and heat radiation, so that the cooling and heat radiation efficiency is greatly improved.

2. The heat-conducting glue contained in the first heat-radiating window mechanism enables the contact between the first heat-radiating window mechanism and the router circuit board to be flexible contact, the wiring pins of the circuit board cannot be damaged, meanwhile, heat on the circuit board can be conducted to the first heat-radiating fin through the heat-radiating fin mounting seat, and the first heat-radiating window mechanism enables the router circuit board to be directly subjected to heat conduction and heat radiation, so that the cooling and heat radiation efficiency is greatly improved.

3. The shell mechanism and the shell mechanism are in a structure with a plurality of sliding insertion joints, such as a combination of the first insertion groove and the second insertion rod and a combination of the second insertion groove and the first insertion rod, after the two shell mechanisms are connected, the joint of the two shell mechanisms cannot be easily broken, the connection tightness between the two shell mechanisms is increased, and the two shell mechanisms are more stable and cannot be easily separated due to the design of the connecting column.

4. The dustproof inner net, the dustproof outer net and the dustproof outer net can prevent external dust from entering the interior of the router, the situation that the heat dissipation efficiency is reduced is avoided, and the design that the dustproof outer net is fixed through the connecting elastic pieces enables a user to shake off accumulated dust conveniently.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of a second housing mechanism according to the present invention.

FIG. 3 is a schematic structural view of a first heat dissipation window mechanism of the present invention.

FIG. 4 is a schematic structural view of a second heat dissipation window mechanism of the present invention.

Fig. 5 is a schematic structural view of a heat sink clip according to the present invention.

Reference numbers in the figures: 1. a first housing mechanism; 11. a bottom panel; 12. mounting a column; 13. a first plug groove; 14. connecting columns; 15. an array of louvers; 16. a dust-proof inner net; 17. a first heat dissipation window mounting groove; 18. a first side panel; 19. a second plug groove; 110. a second heat dissipation window mounting groove; 111. a gasket fitting groove; 112. a rubber gasket; 2. a second housing mechanism; 21. a top panel; 22. a second side panel; 23. a first plug rod; 24. an interface window; 25. a second plug rod; 3. a first heat dissipation window mechanism; 31. a first frame; 32. a mesh groove; 33. a first dustproof outer net; 34. a first heat sink; 35. a heat sink mounting base; 36. the heat-conducting glue is embedded in the groove; 37. heat conducting glue; 38. a first connecting bolt; 39. a connecting seat; 310. a backing ring; 4. a second connecting bolt; 5. a second heat radiation window mechanism; 51. a frame number two; 52. a window; 53. a second dustproof outer net; 54. connecting the elastic sheets; 55. side frame plates; 56. a heat sink clip; 57. a second heat sink; 6. and a third connecting bolt.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, the router housing with a heat dissipation window comprises a first housing mechanism 1, the first housing mechanism 1 is in screwed connection with a second housing mechanism 2, a middle panel of the first housing mechanism 1 is connected with a first heat dissipation window mechanism 3 through a second connecting bolt 4, a side surface of the first housing mechanism 1 is connected with a second heat dissipation window mechanism 5 through a third connecting bolt 6, the first housing mechanism 1 comprises a bottom panel 11, mounting columns 12, a first inserting groove 13, a connecting column 14, a heat dissipation hole array 15, a dustproof inner net 16, a first heat dissipation window mounting groove 17, a first side panel 18, a second inserting groove 19, a second heat dissipation window mounting groove 110, a gasket embedding groove 111 and a rubber gasket 112, four mounting columns 12 are arranged at four corners of the inner side of the bottom panel 11, the mounting columns 12 are arranged at four corners of the bottom panel 11, the improved structure of the heat dissipation window comprises a bottom plate 11, and is characterized in that a first insertion groove 13 is vertically arranged on one side edge of the inner side of the bottom plate 11, a heat dissipation hole array 15 is arranged on the bottom plate 11 between every two adjacent connecting columns 14, a dustproof inner net 16 is connected to the inner side panel of the bottom plate 11 corresponding to the heat dissipation hole array 15 through screws, a first heat dissipation window installation groove 17 is arranged in the middle of the bottom plate 11, first side plates 18 are vertically arranged on two opposite side edges of the bottom plate 11, second insertion grooves 19 are arranged at two ends of the inner side of each first side plate 18, the second insertion grooves 19 are perpendicular to the bottom plate 11, a gasket embedding groove 111 is arranged on the inner side of the bottom plate 11 corresponding to the first heat dissipation window installation groove 17, and a rubber gasket 112 is embedded and connected in the gasket.

The second shell mechanism 2 comprises a top panel 21, a second side panel 22, a first plug rod 23, an interface window 24 and a second plug rod 25, wherein the two opposite side edges of the top panel 21 are respectively and vertically provided with the second side panel 22, the two ends of the second side panel 22 are respectively provided with the first plug rod 23, one of the two side panels 22 is provided with a plurality of interface windows 24, and the other side panel of the second side panel 22 is provided with the second plug rod 25 so as to be connected with the first shell mechanism 1.

Wherein, the first heat dissipation window mechanism 3 comprises a first frame 31, a mesh groove 32, a first dustproof outer mesh 33, a first heat dissipation plate 34, a heat dissipation plate mounting seat 35, a heat conduction glue caulking groove 36, a heat conduction glue 37, a first connecting bolt 38, a connecting seat 39 and a backing ring 310, two mesh grooves 32 are arranged on the first frame 31, the first dustproof outer mesh 33 is fixedly bonded in the mesh grooves 32, the first heat dissipation plate 34 is arranged on one side of the first frame 31 corresponding to the first dustproof outer mesh 33, which is far away from the mesh groove 32, the first heat dissipation plate 34 is fixedly welded on the heat dissipation plate mounting seat 35, the heat conduction glue caulking groove 36 is arranged on one side of the heat dissipation plate mounting seat 35, which is far away from the first heat dissipation plate 34, the heat conduction glue caulking groove 37 is embedded in the heat conduction glue caulking groove 36, the four corners of the heat dissipation plate mounting seat 35 are connected with the connecting seat 39 through the first connecting bolt 38, the connecting seats 39 are respectively and vertically arranged on one side panel of the corresponding first frame 31 at the four corners of, the first frame 31 has cushion rings 310 at four corners, so that the heat conduction and the heat dissipation of the router circuit board are facilitated.

The second heat dissipation window mechanism 5 comprises a second frame 51, a window 52, a second dustproof outer net 53, a connecting elastic sheet 54, side frame plates 55, a heat dissipation sheet clamp 56 and a second heat dissipation sheet 57, wherein the window 52 is arranged on the second frame 51, the second dustproof outer net 53 is arranged on one side of the second frame 51 corresponding to the window 52, two opposite side edges of the second dustproof outer net 53 are fixed on one side plate of the second frame 51 through the connecting elastic sheet 54, two side frame plates 55 are vertically arranged on one side surface of the second frame 51 far away from the connecting elastic sheet 54, the two side frame plates 55 are respectively welded on two ends of the heat dissipation sheet clamp 56, and a plurality of second heat dissipation sheets 57 are welded in the heat dissipation sheet clamp 56 in a matched mode so that heat conduction and heat dissipation can be conveniently carried out on the interior of the heat dissipation window mechanism.

The second plug rod 25 is plugged with the first plug groove 13, the first plug rod 23 is plugged with the second plug groove 19, and the top panel 21 is fixed on the connecting column 14 through screws, so that the first shell mechanism 1 and the second shell mechanism 2 are connected conveniently.

The first frame 31 is disposed in the first heat dissipation window mounting groove 17, and the four backing rings 310 are respectively fixed on a side panel of the bottom panel 11 corresponding to the first heat dissipation window mounting groove 17 through the second connecting bolt 4, so as to be connected and mounted.

The four corners of the second frame 51 are fixed on the first side panel 18 corresponding to the second heat dissipation window mounting groove 110 through the third connecting bolt 6, and the second heat dissipation sheet 57 is disposed inside the first side panel 18 so as to be in contact with the air inside the present invention.

Wherein, the first heat sink 34 is disposed inside the bottom panel 11 so as to be in contact with the router circuit board.

Wherein, a side edge of the bottom panel 11 where the first side panel 18 is located is perpendicular to a side edge of the bottom panel 11 where the first inserting groove 13 is located, so as to facilitate connection and installation between the two housings.

The working principle is as follows: the invention designs a structure with a plurality of sliding plug-in connection between a first shell mechanism 1 and a second shell mechanism 2, such as the combination of a first plug-in groove 13 and a second plug-in rod 25 and the combination of a second plug-in groove 19 and a first plug-in rod 23, the design ensures that after the two shell mechanisms are connected, the joint of the two shell mechanisms cannot be easily broken, the tightness of the connection between the two shell mechanisms is increased, the connection between the two shell mechanisms is more stable and cannot be easily separated by matching with the design of a connecting column 14, the contact between the heat dissipation window mechanism 3 and a router circuit board is flexible contact by the design of a heat conducting adhesive 37 contained in the heat dissipation window mechanism, the connection pin of the circuit board cannot be damaged, meanwhile, the heat on the circuit board can be conducted to a first heat dissipation fin 34 through a heat dissipation fin mounting seat 35, and the design ensures that the heat conduction and the heat dissipation can be directly carried out on the router circuit board, the efficiency of temperature reduction and heat dissipation is greatly improved, the second heat dissipation window mechanism 5 designed by the invention conducts heat conduction and heat dissipation on the heat in the space in the shell, the second radiating fin 57 greatly increases the contact area of the hot gas in the shell and the second radiating window mechanism 5, increases the heat absorption efficiency, the design can lead and dissipate the heat in the shell, further increases the heat dissipation efficiency of the invention, and in addition, the dustproof inner net 16, the first dustproof outer net 33 and the second dustproof outer net 53 designed by the invention can prevent external dust from entering the interior of the invention, thereby avoiding the situation of the reduction of the heat dissipation efficiency, and the design that the second dustproof external net 53 is fixed through the connecting elastic sheet 54 also enables a user to shake off accumulated dust conveniently.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (9)

1. The router shell with the heat dissipation window is characterized by comprising a first shell mechanism (1), wherein the first shell mechanism (1) is in screwed connection with a second shell mechanism (2), a middle panel of the first shell mechanism (1) is connected with a first heat dissipation window mechanism (3) through a second connecting bolt (4), the side surface of the first shell mechanism (1) is connected with a second heat dissipation window mechanism (5) through a third connecting bolt (6), the first shell mechanism (1) comprises a bottom panel (11), mounting columns (12), a first insertion groove (13), a connecting column (14), a heat dissipation hole array (15), a dustproof inner net (16), a first heat dissipation window mounting groove (17), a first insertion groove (18), a second insertion groove (19), a second heat dissipation window mounting groove (110), an embedded gasket side panel groove (111) and a rubber gasket (112), four mounting columns (12) are arranged at four corners of the inner side of the bottom panel (11), the four corners of the bottom panel (11) where the mounting columns (12) are located are vertically provided with the mounting columns (12), one side edge of the inner side of the bottom panel (11) is vertically provided with a first inserting groove (13), the bottom panel (11) between every two adjacent connecting columns (14) is provided with a radiating hole array (15), the inner side panel of the bottom panel (11) corresponding to the radiating hole array (15) is connected with a dustproof inner net (16) through screws, the middle of the bottom panel (11) is provided with a first radiating window mounting groove (17), two opposite side edges of the bottom panel (11) are vertically provided with first side panels (18), two ends of the inner side of each first side panel (18) are respectively provided with a second inserting groove (19), the second inserting grooves (19) are mutually vertical to the bottom panel (11), the inner side of the bottom panel (11) corresponding to the first radiating window mounting grooves (17) is provided with gasket grooves (111), the rubber gasket (112) is embedded and connected in the gasket embedding groove (111).

2. The router shell with the heat dissipation window as recited in claim 1, wherein the second shell mechanism (2) comprises a top panel (21), a second side panel (22), a first plug rod (23), an interface window (24) and a second plug rod (25), the second side panel (22) is vertically arranged on two opposite side edges of the top panel (21), the first plug rod (23) is arranged on two ends of the second side panel (22), one of the second side panel (22) is provided with a plurality of interface windows (24), and the other second side panel (22) is provided with the second plug rod (25).

3. The router shell with the heat dissipation window as recited in claim 1, wherein the first heat dissipation window mechanism (3) comprises a first frame (31), a mesh groove (32), a first dustproof outer mesh (33), a first heat dissipation fin (34), a heat dissipation fin mounting seat (35), a heat conduction glue caulking groove (36), heat conduction glue (37), a first connecting bolt (38), a connecting seat (39) and a backing ring (310), wherein two mesh grooves (32) are formed in the first frame (31), the first dustproof outer mesh (33) is fixedly bonded in the mesh groove (32), the first heat dissipation fin (34) is arranged on one side, away from the mesh groove (32), of the first frame (31) corresponding to the first dustproof outer mesh (33), the first heat dissipation fin (34) is fixedly welded on the first heat dissipation fin mounting seat (35), the heat dissipation fin mounting seat (35) is provided with a heat conduction glue caulking groove (36) on one side, away from the first heat dissipation fin (34), heat-conducting glue is embedded and is equipped with heat-conducting glue (37) in caulking groove (36), the four corners of fin mount pad (35) all are connected with connecting seat (39) through a connecting bolt (38), connecting seat (39) set up perpendicularly respectively on the panel of a frame (31) that the four corners of wire netting groove (32) correspond, the four corners of a frame (31) all are equipped with backing ring (310).

4. The router housing with the heat dissipation window according to claim 1, wherein the second heat dissipation window mechanism (5) comprises a second frame (51), a window (52), a second dustproof outer net (53), a connecting elastic sheet (54), side frame plates (55), a heat dissipation sheet clamp (56) and a second heat dissipation sheet (57), the window (52) is arranged on the second frame (51), the second dustproof outer net (53) is arranged on one side of the second frame (51) corresponding to the window (52), two opposite side edges of the second dustproof outer net (53) are fixed on one side panel of the second frame (51) through the connecting elastic sheet (54), two side frame plates (55) are vertically arranged on one side surface of the second frame (51) far away from the connecting elastic sheet (54), the two side frame plates (55) are respectively welded on two ends of the heat dissipation sheet clamp (56), a plurality of second radiating fins (57) are embedded and welded in the radiating fin clamp (56).

5. The router shell with the heat dissipation window as recited in claim 2, wherein the second plug rod (25) is plugged with the first plug groove (13), the first plug rod (23) is plugged with the second plug groove (19), and the top panel (21) is fixed on the connecting column (14) through screws.

6. The router housing with the heat dissipation window as recited in claim 3, wherein the first frame (31) is disposed in the first heat dissipation window mounting groove (17), and the four backing rings (310) are respectively fixed on a side panel of the bottom panel (11) corresponding to the first heat dissipation window mounting groove (17) by a second connecting bolt (4).

7. The router housing with the heat dissipation window as recited in claim 4, wherein four corners of the second frame (51) are fixed on the first side panel (18) corresponding to the second heat dissipation window mounting groove (110) by third connecting bolts (6), and the second heat dissipation plate (57) is disposed inside the first side panel (18).

8. The router housing with heat radiation window according to claim 3, wherein the first heat radiation fin (34) is provided inside the bottom panel (11).

9. The router housing with the heat dissipation window as recited in claim 1, wherein a side of the bottom panel (11) where the first side panel (18) is located is perpendicular to a side of the bottom panel (11) where the first insertion groove (13) is located.

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